HVAC AND MOLD REMEDIATION

Maintain efficient HVAC systems and mold-free environments by keeping air systems clean and dry, while removing allergens and airborne contaminants from the air. Shop sustainably by purchasing bulk chlorine dioxide products - certified fungicides, algicides, biocides, and deodorizers.

industrial-building

HVAC VAPOR

HVAC VAPOR

Read more
virus-bacterium-infection-213708-q9u4k63fkrktusdwixrbynk1jtemg6su0t0zf9ylyk

VIRUSES AND GERMS

VIRUSES AND GERMS

Read more
business-sanitizing-768x422

ODOR ELIMINATION

ODOR ELIMINATION

Read more
fungus1-768x510

MOLD & MICROBES

MOLD & MICROBES

Read more
AIRBORNE-ALLERGENS-768x483

ALLERGENS

ALLERGENS

Read more
unnamed-2

TOXICITY AND SAFETY

TOXICITY AND SAFETY

Read more

HVAC DISINFECTION

Pollution is often trapped indoors and is continuously circulated, thus creating a breeding ground for harmful pollutants such as bacteria, viruses, and mold. Moreover, the EPA has reported that even a minor 0.42-inch buildup on a cooling or heating coil can lead to a significant 21% decrease in efficiency. These toxic substances can thrive within dirty ductwork, posing substantial risks to individuals with compromised immune systems.

Furthermore, it’s essential to recognize that the powerful sanitizing agent chlorine dioxide is widely regarded as the best solution for combating these issues. So, when you’re planning your annual HVAC cleaning or seasonal shutdown, it’s time to consider what your building or home truly requires. Chlorine dioxide can be expertly applied to your system’s ductwork, drip pans, and evaporator coils to effectively eliminate bacteria, mold, mildew, and yeast.

Notably, chlorine dioxide functions as a versatile biocide, capable of suppressing and exterminating an extensive array of harmful elements. It can target and neutralize 81 different bacteria strains, 24 protozoa types, 44 viruses, 8 chemical decontamination components, 61 varieties of algae, fungi, mold, yeast, and 8 beta-lactams.

COMMON INDUSTRY APPLICATIONS

BUILDINGS

FREEZERS

TRUCKS AND MOTORS

PRODUCTION

TENTED EQUIPMENT

CONTAINERS

DRAINS AND PIPES

DUCTWORK

It is easy to include air handling systems with chlorine dioxide as the gas is small enough that it can penetrate through HEPA filters like they are not there. Moreover, because it is a gas, it can navigate all the turns and bends of the ductwork system effortlessly.

For stasis microbial control first, clean the system. Next, apply a routine maintenance program with chlorine dioxide. Additionally, to ensure complete microbial control, apply a concentrated amount of chlorine dioxide to the system intakes. This should be done while the fan is running. Furthermore, it is important to allow time for machines to be cleaned. This will ensure that they are able to work at their peak efficiency for the next year and prevent any machine breakdowns.

HVAC and vapor fogging

Concentration 100 ppm – ensure all surfaces are damp before drying

Concentration 500 ppm – open confined space and air before re-occupying

An antimicrobial agent to eliminate germs, odor, and contamination

  • Light Concentration 20 ppm -soft, porous, hard, nonporous, and food contact
  • Heavy Concentration 500 ppm – hospital grade and healthcare environments
  • Viricide Concentration 500 + ppm – massive decontamination in milliseconds

AREA FOGGING, VAPOR DISINFECTANT, AND ODOR ELIMINATION

Equipment can be tented, fogged, or fumigated for applications that do not require decontamination of the entire room. This reduces the volume of work required to treat; furthermore, it lowers treatment costs and time significantly.

Moreover, eliminate odors by eliminating bacteria from the source, including smoke and other bad smells. According to the American Lung Association (ALA), air ducts can contain more germs than chicken coops. Additionally, ventilation systems can spread disease-causing organisms easily by allowing for damp and dirty environments.

Chlorine dioxide gas completely fills the space in which it is contained. This ensures that no surface is left unattended, irrespective of the size of the target area or the quantity of equipment within it. Furthermore, this comprehensive coverage guarantees that every nook and cranny is treated effectively, making it an ideal solution.

TOXICITY AND SAFETY

Clean Solutions’ key attributes include its safety, low toxicity, and a 90% reduction in the use of petroleum plastics. Furthermore, since 1988, chlorine dioxide gas has been registered with the U.S. Environmental Protection Agency as a sterilant, marking it as a form of antimicrobial pesticide. Moreover, it’s worth noting that it is rated as a category IV product, signifying the lowest EPA toxicity rating available. This, in turn, implies that there are no harmful dermal (skin), ocular (eyes), inhalation (breathing), or ingestion (swallowing) effects associated with its usage. Additionally, its eco-friendly properties make it an ideal choice for environmentally conscious consumers.

APPLICATION METHODS & FREQUENCY

It can be applied with either a hand-held or air-driven sprayer to any HVAC system, including residential, commercial, industrial, institutional, home, private, or public property. Additionally, it is recommended to perform this treatment twice a year, or as often as necessary. Furthermore, to ensure environmental control in buildings and facilities, especially in high-traffic and industrial areas, it can be treated each month.

OTHER APPLICATIONS

REMOVE AIRBORNE ALLERGENS AND PATHOGENS

The initial step in eliminating allergens and airborne contaminants from the air is cleaning the ductwork. Furthermore, the EPA has identified indoor air to be approximately five times more polluted than outdoor air. Moreover, in certain instances, some buildings have a staggering 100 times the pollution levels.

Improving Indoor Air Quality with Chlorine Dioxide Gas

Dust mites thrive in dirty ductwork where they feed on organic matter. Furthermore, the antimicrobial disinfectant chlorine dioxide gas improves indoor air quality by reducing the concentration of bacteria and fungi. Filtration of air efficiently is essential, not only to stop the spread of these diseases but also to keep loved ones and employees from getting ill.

In addition, using the Spaulding classification scheme categorizing items as noncritical, semi-critical, or critical brings efficiency to processing workflow and for sterile processing facilities.

Types of Microorganisms in order of difficulty to kill per the Spaulding Classification

  1.  Bacterial Endospores (Clostridium, Bacillus)
  2.  Mycobacteria (Mycobacterium)
  3.  Non-enveloped, non-lipid viruses (Parvoviruses)
  4.  Fungi (Aspergillus, Stachybotrys)
  5.  Gram-negative vegetative bacteria (Escherichia, Pseudomonas)
  6.  Gram-positive bacteria (Enterococcus, Staphylococcus)
  7.  Enveloped, lipid viruses (Influenza)

Regarding the “treatment of HVAC systems,” the use of continuous release (gas) deodorizers offers several advantages. Firstly, Chlorine dioxide/sodium chlorite can be applied as an aqueous solution to hard surfaces such as floors, potentially reducing inhalation exposure. Secondly, for this assessment, the Agency estimated the air concentration to be 0.003 ppm, which is below the short-term RfC of 0.05 ppm, and therefore not of concern. Furthermore, for application to HVAC systems, this use is not of concern either. Lastly, in the case of continuous release, the estimated constant air concentration was 0.52 ppm, assuming no air exchange and no build-up of chlorine dioxide over time because of the short half-life. These factors collectively underscore the safety and effectiveness of this approach.

virus-bacterium-infection-213708.jpg

VIRUSES AND GERMS

Chlorine Dioxide solutions have proven successful in treating some of the most challenging environments around the globe. Chlorine dioxide can be safely used on stainless steel, anodized aluminium, painted steel, paints, epoxy flooring, paints, gaskets and electronics to disinfect and deodorize, killing over 220 different harmful microorganisms.

Highly touched surfaces (such as light switches, doors, knobs, desks, chairs, water fountains, and other common areas that receive a lot of traffic) should be targeted. No rinse is required because there are no toxic residues. The WHO recognizes chlorine dioxide as a safe sanitizer on skin for people and pets.

Chlorine dioxide gas is an agent used to control noxious microorganisms on inanimate objects and surfaces. It is important to allow time for machines to be cleaned. This will ensure that they are able to work at their peak efficiency for next year and prevent any machine breakdowns.

microbes.jpg

MOLD & MICROBES

MILDEW

MOLD

FUNGUS

MICROBES

SPORES

Virus

Mold is easily attracted to moisture and can be found all over the place. It can travel between buildings if ventilation systems are connected or people traffic contamination. Mold removal is a common application in flooded homes to stop its reemergence. Chlorine dioxide disinfects and deodorizes microorganisms, like mold, directly from the source.

It is not easy to prevent or eliminate spore contamination. Spores can lead to a variety of health problems, including asthma, allergies, respiratory infections, and toxic poisoning. Also can cause headaches, irritation of the eyes and throat, as well as coughing. Chlorine dioxide is better at inactivating fungal spores than chlorine, can be used to sterilize peroxide-resistant and UV-resistant spores, and is hospital grade and safe for public use.

spores.jpg

HOW TO USE OUR KITS

Watch this short video to learn more about OUR Eco-friendly PRODUCTS

1. Mixing

Put a few drops of concentrate and a few drops of activator into a glass or plastic container

2. Wait

Set aside for one minute and wait for the solution to turn an amber, yellow color.

3. Fill with Water

Add clean water to fill the rest of the container and you’re ready to sanitize

4. Start Cleaning

Find a surface you want to clean and use it just as you would a normal cleaner.

Still have a few questions about our kits?

Have a business or
large space to fog?

To estimate the cost of a particular disinfection, or remediation service. Use our disinfection services calculator

How much
do I need?

Would you like to calculate how
much you’ll need by answering a
ew short questions?

More than one use,
task or application?

Then take our short 2 to 5-minute quiz
and let us come up with a custom solution just for you.

  1.  “Chemical Disinfectants | Disinfection & Sterilization Guidelines ….” https://www.cdc.gov/infectioncontrol/guidelines/disinfection/disinfection-methods/chemical.html. Accessed 6 Jan. 2021.
  2. “Infections and infectious diseases – WHO/Europe – World ….” https://www.euro.who.int/__data/assets/pdf_file/0013/102316/e79822.pdf. Accessed 2 Jan. 2021.
  3. “Can chlorine dioxide prevent the spreading of coronavirus or ….” 31 Mar. 2020, https://akjournals.com/view/journals/2060/107/1/article-p1.xml. Accessed 2 Jan. 2021.
  4.  “History of Changes for Study: NCT04343742 – ClinicalTrials.gov.” https://clinicaltrials.gov/ct2/history/NCT04343742?V_2=View. Accessed 2 Jul. 2021.
  5.  “Guideline for the Prevention and Control of Norovirus … – CDC.” 15 Feb. 2017, https://www.cdc.gov/infectioncontrol/pdf/guidelines/norovirus-guidelines.pdf. Accessed 30 Dec. 2020.
  6.  “Determination of the Effectiveness of Oral Chlorine Dioxide in the ….” 13 Apr. 2020, https://clinicaltrials.gov/ct2/show/NCT04343742. Accessed 10 Feb. 2021.
  7. “2. CHEMISTRY OF DISINFECTANTS AND DISINFECTANT ….” http://www.who.int/ipcs/publications/ehc/216_disinfectants_part_2.pdf?. Accessed 4 Jan. 2021.
  8. “Can chlorine dioxide prevent the spreading of coronavirus or ….” 31 Mar. 2020, https://akjournals.com/view/journals/2060/107/1/article-p1.xml. Accessed 2 Jan. 2021.
  9.  “US5616347A – Google Patents.”

    https://patents.google.com/patent/US5616347A/en. Accessed 1 

  10. Jan. 2021.
  11.  “Infections and infectious diseases – WHO/Europe – World ….” https://www.euro.who.int/__data/assets/pdf_file/0013/102316/e79822.pdf. Accessed 2 Jan. 2021.
  12. “Infections and infectious diseases – WHO/Europe – World ….” https://www.euro.who.int/__data/assets/pdf_file/0013/102316/e79822.pdf. Accessed 2 Jan. 2021.
  13.  “US5616347A – Google Patents.” https://patents.google.com/patent/US5616347A/en. Accessed 1 
  14. Jan. 2021.
  15. “Chlorine Dioxide | Use, Benefits, and Chemical Safety Facts.” https://www.chemicalsafetyfacts.org/chlorine-dioxide/. Accessed 11 Mar. 2022.
  16. “Chlorine Dioxide | Use, Benefits, and Chemical Safety Facts.” https://www.chemicalsafetyfacts.org/chlorine-dioxide/. Accessed 11 Mar. 2022.
  17. “for Chlorine dioxide – US EPA.” 3 Aug. 2006, https://www3.epa.gov/pesticides/chem_search/reg_actions/reregistration/red_PC-020503_3-Aug-06.pdf. Accessed 6 Jan. 2021.
  18. “Chemical Disinfectants | Disinfection & Sterilization Guidelines ….” https://www.cdc.gov/infectioncontrol/guidelines/disinfection/disinfection-methods/chemical.html. Accessed 6 Jan. 2021.
  19. “Chlorine Dioxide | Use, Benefits, and Chemical Safety Facts.”

    https://www.chemicalsafetyfacts.org/chlorine-dioxide/. Accessed 11 Mar. 2022.

  20. “Infections and infectious diseases – WHO/Europe – World ….” https://www.euro.who.int/__data/assets/pdf_file/0013/102316/e79822.pdf. Accessed 2 Jan. 2021.
  21.  “Chlorine Dioxide | Use, Benefits, and ….” https://www.chemicalsafetyfacts.org/chlorine-dioxide/. Accessed 17 Feb. 2021.
  22.  “US5616347A – Google Patents.” https://patents.google.com/patent/US5616347A/en. Accessed 1 
  23. Jan. 2021.
  24. “2. CHEMISTRY OF DISINFECTANTS AND DISINFECTANT ….” http://www.who.int/ipcs/publications/ehc/216_disinfectants_part_2.pdf?. Accessed 4 Jan. 2021.
  25.  “Chlorine Dioxide – an overview | ScienceDirect Topics.” https://www.sciencedirect.com/topics/engineering/chlorine-dioxide. Accessed 8 Feb. 2021.
  26. “GC 30 – American Mushroom Institute.” https://www.americanmushroom.org/clientuploads/IPM/Disenfectants/GC30-Technical-Bulletin.pdf. Accessed 11 Mar. 2022.
  27. “An Office Building Occupants Guide to Indoor Air Quality ….” 3 Oct. 2019, https://www.epa.gov/indoor-air-quality-iaq/office-building-occupants-guide-indoor-air-quality. Accessed 3 Jan. 2021.
  28.  “History of Changes for Study: NCT04343742 – ClinicalTrials.gov.”

    https://clinicaltrials.gov/ct2/history/NCT04343742?V_2=View. Accessed 2 Jul. 2021.

  29. “Guideline for the Prevention and Control of Norovirus … – CDC.” 15 Feb. 2017, https://www.cdc.gov/infectioncontrol/pdf/guidelines/norovirus-guidelines.pdf. Accessed 30 Dec. 2020.
  30.  “Determination of the Effectiveness of Oral Chlorine Dioxide in the ….” 13 Apr. 2020, https://clinicaltrials.gov/ct2/show/NCT04343742. Accessed 10 Feb. 2021.
  31. “US5616347A – Google Patents.” https://patents.google.com/patent/US5616347A/en. Accessed 1 
  32. Jan. 2021.
  33. “Infections and infectious diseases – WHO/Europe – World ….” https://www.euro.who.int/__data/assets/pdf_file/0013/102316/e79822.pdf. Accessed 2 Jan. 2021.
  34. “Can chlorine dioxide prevent the spreading of coronavirus or ….” 31 Mar. 2020, https://akjournals.com/view/journals/2060/107/1/article-p1.xml. Accessed 2 Jan. 2021.
  35. “US5616347A – Google Patents.” https://patents.google.com/patent/US5616347A/en. Accessed 1 
  36. Jan. 2021.
  37. “Chemical Disinfectants | Disinfection & Sterilization Guidelines ….” https://www.cdc.gov/infectioncontrol/guidelines/disinfection/disinfection-methods/chemical.html. Accessed 6 Jan. 2021.
  38. “for Chlorine dioxide – US EPA.” 3 Aug. 2006, https://www3.epa.gov/pesticides/chem_search/reg_actions/reregistration/red_PC-020503_3-Aug-06.pdf. Accessed 6 Jan. 2021.
  39.  “Chlorine Dioxide | Use, Benefits, and ….” https://www.chemicalsafetyfacts.org/chlorine-dioxide/. Accessed 17 Feb. 2021.
  40. “2. CHEMISTRY OF DISINFECTANTS AND DISINFECTANT ….” http://www.who.int/ipcs/publications/ehc/216_disinfectants_part_2.pdf?. Accessed 4 Jan. 2021.
  41.  “Chlorine Dioxide – an overview | ScienceDirect Topics.” https://www.sciencedirect.com/topics/engineering/chlorine-dioxide. Accessed 8 Feb. 2021.